ANTENNA ARRANGEMENT
An antenna arrangement on a the printed circuit board with at least two magnetic rings and a rectangular ring cross section and lateral magnetic ring surfaces with opposite polarity formed thereby wherein the magnetic ring surfaces are arranged on the printed circuit board with a distance from one another using a spacer, wherein the opposite polarities of the magnetic ring surfaces are oriented towards each other and the central bore holes of the magnetic ring form a pass through bore hole through a bore hole in the spacer. This antenna arrangement is configured for a material detector device which facilitates detecting objects made from a predetermined material over a larger distance. Based on its configuration the antenna arrangement is infinitely expandable in its operation by increasing the number of the magnetic rings and of the respective spacers. Due to its low volume the antenna arrangement can be easily integrated into existing devices and can be produced in a cost effective manner.
This application priority from and incorporates by reference European Patent Application 14 174 557.0 filed on Jun. 26, 2014.
FIELD OF THE INVENTIONThe invention relates to an antenna arrangement for a material detector device for detecting objects made from a predetermined material over a large distance by emitting an ion beam and receiving a returning ion beam including a printed circuit board at least for receiving electronic circuits and components and an antenna and electrical connecting conductors to the antenna.
BACKGROUND OF THE INVENTIONDE 10 329 335 discloses a material detector device which is used for detecting objects of a predetermined material in that an electromagnetic signal configured as an ion beam is emitted and the returning signal is detected. This document also describes a transmitting and receiving antenna used for this purpose which is arranged on a printed circuit board which is used at least for receiving electronic circuits and components and electronic connecting conductors to the antenna. A material detector device which facilitates detecting materials over a distance of 1 to 2 kilometers is commercially available at AMPASSMETER GmbH, Handwerkerhof 1, D-54338, Schweich.
BRIEF SUMMARY OF THE INVENTIONThus, it is an object of the present invention to propose a new antenna arrangement which is configured much smaller than the known antenna and thus facilitates installation in other mobile devices in order to provide additional material detection with these devices.
The object is achieved according to the invention by an antenna arrangement for a material detecting device locating an object made from a particular predeterminable material at a distance of one to two kilometers by emitting an ion beam and receiving a returning ion beam that is reflected by the object, wherein properties of the material to be detected cause a reflection of the ion beam, the antenna arrangement including a printed circuit board including at least electronic circuits and components of an antenna circuit; and an antenna and electrical connection conductors to the antenna, wherein the antenna emits an ion beam and receives a returning ion beam that is reflected by an object that is being located and the antenna circuit generates a transmission signal and processes a return signal, wherein the antenna includes at least two magnetic rings with a rectangular ring cross section and lateral magnetic ring surfaces with opposite polarity forming electrodes which are arranged on the printed circuit board by at least one spacer including a bore hole at a distance from one another, wherein opposite polarities of the lateral magnetic ring surfaces are oriented towards one another and central bore holes of the at least two magnetic rings in combination with the bore hole in the spacer form a pass through bore hole, wherein the at least two magnetic rings are connected at the electronic antenna circuit arranged on the printed circuit board, wherein the antenna circuit applies a repeating triangular or saw tooth signal with a respective pause between the signals to the magnetic rings for generating the ion beam, and wherein an amplitude and a frequency of the triangle or saw tooth signal with pause is adjustable through the antenna circuit and a detection of different materials is performed with a different frequency or amplitude. Additional advantageous embodiments can be derived from the dependent claims.
According to the invention the antenna arrangement includes at least two magnetic rings with a rectangular ring cross section, wherein the magnetic rings are arranged by a spacer at a distance from one another on the printed circuit board. The rectangular ring cross sections form lateral magnetic ring surfaces with opposite polarity, wherein the opposite polarities of the magnetic ring surfaces are oriented towards each other and the central bore holes of the magnetic rings form a pass through bore hole through a bore hole in the spacer. The magnetic rings can thus be arranged on both sides of the printed circuit board, so that the printed circuit board is used as a spacer and includes a bore hole so that a pass through bore hole through the two magnetic rings and the printed circuit broad is provided. Another option is to arrange the magnetic rings with a spacer with pass through bore hole on a side of the printed circuit board so that the pass through bore hole formed by the magnetic rings and the spacer either extends perpendicular or essentially parallel to the printed circuit board. As a matter of principle additional magnetic rings that are separated by spacers can adjoin each magnetic ring, wherein furthermore the magnetic rings are oriented towards each other with magnetic ring surfaces with opposite polarity.
The antenna formed by the magnetic rings and the spacer is connected to an electronic circuit so that applying a saw tooth voltage with a pause generates oxygen or nitrogen ions from air about the magnetic rings and in an interior of the magnetic rings. Through the magnetic rings and the spacers arranged there between the ions are accelerated and ejected out of the pass through bore hole. Plural offset magnetic rings provide a higher velocity of the cations until a resonance avalanche is generated corresponding to the ionization energy steps. This causes a cation beam in the direction south pole-north pole for oxygen and nitrogen cations and versa an anion beam for oxygen and nitrogen anions. Generally speaking: an acceleration path for oxygen and nitrogen ions. Since the cations are smaller and lighter they are accelerated more strongly and therefore also have improved material permeability so that they collide with air molecules very little or not at all. Thus the cations are advantageously used. Through the frequency of the triangular signal and the amplitude the respective cations are tuned to the material to be detected. In fact mostly oxygen cations are used since they are ionized from air more quickly due to smaller bonding forces. When the oxygen cations impact respective cations on the predetermined material a reflection is provided which can be measured and processed in the transmission brakes as an electrical signal in the electronic circuit when returning to the magnets. The display is provided optically and acoustically. The magnetic ring arrangement acts similar to an ion source when accelerating the cations and anions. Interference signals are suppressed in a known manner by using a differential amplifier in the electronic circuit.
In order to configure the pass through space as advantageous as possible for forming and accelerating ions, in particular the cations, in this portion according to an advantageous embodiment of the invention the bore hole in the spacer is aligned with the bore holes of the magnetic rings,
According to a particularly preferred embodiment of the invention the spacer for a first and a second magnetic ring is the printed circuit board so that at least one magnetic ring is arranged on each side of the printed circuit board in a space saving manner wherein the printed circuit board includes a respective pass through bore hole. As stated supra the arrangement can be expanded by additional spacers and magnetic rings.
According to another advantageous embodiment a circuit is arranged on the printed circuit board, wherein the circuit emits a saw tooth signal or a triangular signal through the magnetic rings, wherein a cycle of the saw tooth signal also includes a transmission pause and wherein the circuit receives the return signal in a transmission pause.
Thus, the antenna arrangement according to the invention facilitates emitting and receiving an ion beam and processing it within a minimal space. When the entire unit is configured accordingly together with the antenna arrangement the pass through bore hole can be simultaneously used for determining the direction of the seeked material, for example with a laser pointer beam or laser diode beam. For inaccessible locations, e.g. medical technology also a light wave conductor (diameter 1 mm) can be inserted through the pass through bore hole in order to receive information from another end of the light wave conductor. Due to its small size the antenna arrangement can also be integrated into a mobile telephone so that detecting materials can also be provided therewith.
Other features of the invention can be derived from the subsequent description of the embodiments in combination with the claims, the description and the accompanying drawings. The individual features can be implemented individually or in groups when implementing the invention. The invention is subsequently described based on an advantageous embodiment with reference to drawing figures, wherein:
The antenna with two magnetic rings illustrated in
The triangle generator generates a known triangle or saw tooth signal with a rising flank and a descending flank and a pause between the next triangle signal. Both magnetic rings 3 and 4 are supplied in one embodiment with a saw tooth voltage with an amplitude of 70 mV with a frequency of 149.00 Hz of the saw tooth voltage, wherein the pause is 50% of a period. This frequency can be used for detecting pure water. Through the voltage applied to the magnetic rings 3, 4 oxygen and nitrogen cations and anions are separated from air enveloping the magnetic rings 3 and 4 and arranged in their interior. The cations and anions are accelerated by the arrangement described supra and moved out of the arrangement. As recited supra the arrow 8 indicates the direction of the cations which pass through materials easily due to their small size and which are furthermore accelerated more quickly than the anions moved in opposite direction. When the cations impact pure water like in this embodiment they are reflected. Otherwise they pass through the material. The returning cations can then be detected in the pause of the signal. The detection is performed electronically wherein it is very advantageous for the measurement to follow the measuring process with a head set in order to detect in which direction returning signals occur. The antenna arrangement according to the invention described supra can for example be installed in a material detector device that is available at AMPASSMETER GmbH and by which measurements of this type can be performed for finding materials. The detection of different materials is performed with different frequencies which are accessible to a user of a unit of this type. A detection of the materials through the material detector device is possible over a distance of one to two kilometers.
Claims
1. An antenna arrangement for a material detecting device locating an object made from a particular predeterminable material at a distance of one to two kilometers by emitting an ion beam and receiving a returning ion beam that is reflected by the object, wherein properties of the material to be detected cause a reflection of the ion beam, the antenna arrangement comprising:
- a printed circuit board including at least electronic circuits and components of an antenna circuit; and
- an antenna and electrical connection conductors to the antenna,
- wherein the antenna emits an ion beam and receives a returning ion beam that is reflected by an object that is being located and the antenna circuit generates a transmission signal and processes a return signal,
- wherein the antenna includes at least two magnetic rings with a rectangular ring cross section and lateral magnetic ring surfaces with opposite polarity forming electrodes which are arranged on the printed circuit board by at least one spacer including a bore hole at a distance from one another,
- wherein opposite polarities of the lateral magnetic ring surfaces are oriented towards one another and central bore holes of the at least two magnetic rings in combination with the bore hole in the spacer form a pass through bore hole,
- wherein the at least two magnetic rings are connected at the electronic antenna circuit arranged on the printed circuit board,
- wherein the antenna circuit applies a repeating triangular or saw tooth signal with a respective pause between the signals to the magnetic rings for generating the ion beam, and
- wherein an amplitude and a frequency of the triangle or saw tooth signal with pause is adjustable through the antenna circuit and a detection of different materials is performed with a different frequency or amplitude.
2. The antenna arrangement according to claim 1, wherein the bore hole in the spacer is aligned with the central bore holes of the at least two magnetic rings.
3. The antenna arrangement according to claim 1, wherein the spacer for a first magnetic ring and a second magnetic ring is the printed circuit board.
4. The antenna arrangement according to claim 1, wherein the circuit transmits a signal through the at least two magnetic rings and receives a return signal in a transmission pause.
Type: Application
Filed: Jun 11, 2015
Publication Date: Jun 2, 2016
Inventor: Siegfried Stauber (Zurich)
Application Number: 14/736,673